Technical Specialist - CAE Mold Flow

About The Position

Requirements

• BS in Engineering or a related field
• Engineering degree (Science Materials, Polymer Materials, Mechanical, Mechatronics, desirable) or related disciplines with coursework in Finite Element Methods.
• 8+ years - Strong ability to interpret injection molding reports and identify improvements in part design, tool design, and process parameters.
• Skilled at distinguishing high value simulation reports from those lacking technical rigor or sufficient data.
• Ability to understand and analyze MFR log files.
• Capable of identifying high value UDB files and ensuring they are correctly applied in simulations.
• Expertise in detecting simulations that deviate from internal quality standards.
• Strong ability to integrate injection molding results into structural FEM workflows to produce accurate CAE predictions reflecting manufacturing effects.
• Deep understanding of part design beyond CAD geometry and Excel datasets, applying real world manufacturability principles.
• Excellent at summarizing and presenting technical results to cross functional teams in a clear and concise manner.
• Strong practical problem-solving approach, bridging simulation and real world production constraints.
• Independent, highly organized, self-motivated, persistent, and goal oriented.
• Able to work effectively both independently and collaboratively across global teams.
• Strong emotional intelligence and proven company loyalty.
• Effective communicator with strong presentation skills.
• Creative thinker capable of rapidly assessing problems and identifying feasible solutions.
• Highly adaptable and able to manage multiple tasks in dynamic environments.
• Demonstrated leadership with the ability to motivate, influence, negotiate, and align diverse stakeholders.
• Strong self-learning ability and willingness to adopt new tools early.

Nice To Haves

• MS or Ph. D. degree preferred.
• DFSS Green Belt (or Equivalent certification in statistical and optimization tools and techniques) preferred.
• 10+ years professional experience in injection molding simulation and CAE, preferably within the automotive industry.
• Extensive knowledge of the plastic injection molding process for automotive components.
• Extensive experience performing injection-molding simulations, including fill, pack, cooling, and warp analyses on complex parts, using midplane and full 3D mesh models.
• Experience simulating mold inserts, heater cartridges, induction coils, and mold blocks to analyze thermal performance.
• Extensive expertise in simulating hot-runner systems, including valve programming to optimize gating, flow distribution, and overall process performance.
• Proven experience delivering Class A surface parts, with expertise in managing material finishes and a background in lighting acceptance criteria.
• Experience with injection molding machine setup: process parameters and startup procedures.
• Knowledge of scientific molding principles and process control strategies.
• Strong understanding of injection molding simulation variables and their engineering impact.
• Excellent understanding of injection molded part design fundamentals.
• Solid engineering knowledge of mechanical, structural, and polymer science concepts ((rheology, physical and thermal properties)
• Understanding of injection mold manufacturing processes, tool steels, and machining considerations.
• Experience with major CAE packages such as Moldflow, Moldex3D, ANSA, HyperWorks, Nastran, Abaqus, Radioss, LSDyna, and Digimat; experience with Teamcenter, CATIA, Siemens NX, and Autodesk Inventor.
• Familiarity with vehicle level CAE analyses, such as gravity sag, sun load, firmfeel, aero loads, and hood seal resistance.
• Knowledge of automotive product development processes and validation frameworks (e.g., GPDS).
• Strong grounding in heat transfer, polymer rheology, and how processing conditions influence material behavior.
• Familiarity with statistical methods and optimization techniques.
• Proven ability to develop, enhance, or innovate analysis reporting formats.
• Ability to translate abstract physical principles and mathematical models into practical design decisions; teaching experience preferred.
• Field oriented mindset with strong real-world problem-solving ability.

Responsibilities

• Lead, perform, and audit advanced injection molding simulations to identify efficiency opportunities in part and tool development, ensuring alignment with ESOW/MSOW requirements.
• Lead problem solving for issues related to molding
• Improve or author new requirements and design rules and acceptance criteria for molded materials
• Execute and review Moldflow simulation analyses for exterior system components, delivering robust design insights and complete technical documentation across all development stages.
• Create, modify, and transform injection molding simulation models into high-fidelity finite element representations that accurately predict Exterior Systems performance, following corporate standards and procedures.
• Perform detailed audits of Moldflow models for accuracy and compliance.
• Support Ford D&R, PD Finance, Purchasing, and Cost Optimization teams by reviewing the complete ED&T mountain chart to validate assumptions, identify efficiency opportunities, and define costeffective simulation targets based on program and commodity design scope.
• Provide technical support to D&R teams during T0 and DCV events, ensuring that tool performance correlates with simulation predictions and meets signoff requirements.
• Participate in local and global forums to share emerging methodologies, new procedures, and innovative approaches to injection molding simulation.
• Support the ELD organization by teaching Moldflow courses as part of the Plastics Curriculum for PD, Purchasing, Finance, and GVT teams.
• Interpret Moldflow, CAE, and physical test results to develop feasible countermeasures that ensure compliance with system and component level requirements.
• Establish strong correlation between simulation and physical testing.
• Perform and audit injection molding simulations at a level of detail appropriate to each development milestone, ensuring efficiency and consistency with design output needs.
• Review and validate supplier injection molding simulations, ensuring Exterior Systems targets are met through a consistent DV plan based on DVM methodologies and aligned with corporate requirements.
• Collaborate with global CAE teams and physical testing groups to improve simulation methods and enhance correlation between virtual and physical results.
• Maintain a forward looking mindset by staying current with emerging technologies, tools, and best practices in injection molding simulation.

Benefits

• Immediate medical, dental, vision and prescription drug coverage
• Flexible family care days, paid parental leave, new parent ramp-up programs, subsidized back-up child care and more
• Family building benefits including adoption and surrogacy expense reimbursement, fertility treatments, and more
• Vehicle discount program for employees and family members and management leases
• Tuition assistance
• Established and active employee resource groups
• Paid time off for individual and team community service
• A generous schedule of paid holidays, including the week between Christmas and New Year’s Day
• Paid time off and the option to purchase additional vacation time.